TY - JOUR
AU - Lu, Yanping
AB - Pressureless sintering of AlN-SiC and AlN-ZrO2 systems with Y2O3 as a sintering aid was carried out in a nitrogen atmosphere. The effects of SiC grain size and molding methods on the sinterability and microstructure were characterized and high-frequency dielectric properties of AlN-SiC ceramic in different bands were investigated. The dielectric constant decreased as the increase of frequency, but the dielectric loss (tgδ) showed the opposite trend. The tgδ values of AlN-SiC ceramic reached a maximum rang of 0.44–0.57 in the 75–110 GHz region (W band). Besides, the thermal conductivity at room temperature was 41.414 W/(m·K). To improve the thermal conductivity of AlN-SiC ceramic, the ZrO2 spherical attenuator was selected as the substitute for SiC. The microstructure, high-frequency dielectric properties in W band and thermal conductivity of AlN-ZrO2 ceramic were investigated. By adding ZrO2 spherical attenuator in AlN substrate material, the thermal conductivity can be greatly improved up to 138 W/(m·K). At the same time, high microwave loss ability was obtained for the AlN-ZrO2 ceramic: tgδ = 0.3–0.5 in W band. The relatively high thermal conductivity and high dielectric loss in W band would make AlN-ZrO2 microwave absorbing materials promising for application.
TI - Preparation and dielectric properties at high frequency of AlN-based composited ceramic
JF - Journal of Materials Science: Materials in Electronics
DO - 10.1007/s10854-019-02826-4
DA - 2020-02-08
UR - https://www.deepdyve.com/lp/springer-journals/preparation-and-dielectric-properties-at-high-frequency-of-aln-based-rTV0mlYnJM
SP - 2826
EP - 2832
VL - 31
IS - 4
DP - DeepDyve
ER -